Terraform 助手
- 作者仓库星标 105
- 许可证 MIT
- 作者更新于 实时读取
- 作者仓库 some_claude_skills
- 领域
- 运维部署
- 兼容 Agent
-
- Claude Code
- Cursor
- Cline
- Codex
- Windsurf
- Gemini CLI
- +20
- 信任分
- 94 / 100 · 已通过审计
- 作者 / 版本 / 许可
- @curiositech · MIT
- Token 消耗评级
- 低消耗
- 接入复杂程度
- 即装即用
- 是否需要外部 API Key
- 不需要
- 兼容的系统
- Linux
- 底层运行要求
- 无特殊要求
- 文件与系统权限
-
- 只读
- 允许写入 / 修改
- 网络行为
- 仅限本地
- 安装命令数
- 26 条
档案由构建时根据 SKILL.md 与安装命令自动衍生,可能与作者实际意图存在差异。
需要注意: 未限定 allowed-tools,默认拥有全部工具权限。
---
name: terraform-iac-expert
description: Terraform and OpenTofu infrastructure as code — module design, state management, multi-environme…
category: 运维部署
runtime: 无特殊运行时
---
# terraform-iac-expert 输出预览
## PART A: 任务判断
- 适用问题:部署、CI、环境检查、发布或运维排障。
- 输入要求:目标材料、限制条件、期望输出和验收方式。
- 证据边界:围绕“Overview / When to Use / Capabilities”读取原文规则,不把推断写成作者承诺。
## PART B: 执行结果
- **01** 任务判断:确认你的需求是否属于部署、CI、环境检查、发布或运维排障,并标出输入、限制和预期结果。
- **02** 执行计划:优先按“Overview / When to Use / Capabilities”拆成步骤,说明每一步会读取什么、修改什么、产出什么。
- **03** 交付结果:给出可复制的命令、文件改动、检查清单或内容草稿,并说明如何继续迭代。
- **04** 风险边界:结合 读取文件、写入/修改文件、主要在本地完成、通常不需要额外 API Key 给出执行前确认项。
## Running Rules
- 读取文件、写入/修改文件;主要在本地完成;通常不需要额外 API Key。
- 先小样例验证,再放大到真实任务。
- 交付时同时给结果、检查口径和下一步迭代建议。 先确认触发方式
原文没有稳定的斜杠命令要求。安装验证后通常全局生效,直接在对话里点名这个 Skill 并描述任务即可。
给清楚输入和边界
告诉 Agent 目标文件或材料、期望结果、不可改范围、是否允许联网或执行命令。本 Skill 的权限画像是:读取文件、写入/修改文件。
小样例验证后再放大
先用一个小任务确认它会围绕“Overview / When to Use / Capabilities”工作;涉及文件或命令时,先看 diff、日志、预览或测试结果。
复核后再交付
检查最终产物是否包含明确结果、必要证据和下一步动作;如果输出泛泛而谈,就补充输入、边界和验收标准后重跑。
---
name: terraform-iac-expert
description: Terraform and OpenTofu infrastructure as code — module design, state management, multi-environme…
category: 运维部署
source: curiositech/some_claude_skills
---
# terraform-iac-expert
## 什么时候使用
- 把部署运维方向的常用动作沉淀成 Agent 可调用的技能 适合处理部署、CI、发布、回滚、环境检查和运维排障,核心价值是把输入、判断、执行、验证和交付边界固定下来,避免 Agent 泛泛回答。 把任务拆成可执行、可检查、可继续迭代的步骤…
- 面向部署、CI、环境检查、发布或运维排障,优先处理能明确输入、步骤和验收标准的工作。
## 需要提供什么
- 目标材料、目录范围、期望结果和不可改动内容。
- 是否允许联网、执行命令、读写文件或调用外部服务。
## 执行规则
- 围绕「Overview / When to Use / Capabilities」组织步骤,不把推断写成作者事实。
- 读取文件、写入/修改文件;主要在本地完成;通常不需要额外 API Key。
- 先跑小样例,确认结果可检查后再扩大任务范围。
## 输出要求
- 给出最终产物、关键证据、验证方式和下一步动作。
- 信息不足时标记 unknown,不编造命令、平台或依赖。 证据边界与执行链路
作者原文负责流程事实;仓库文件负责来源和命令;流狐只补充适用场景、限制和质量判断。
skill "terraform-iac-expert" {
输入层 -> 用户目标 + 目标文件 + 禁止范围 + 验收标准
上下文层 -> Overview / When to Use / Capabilities
规则层 -> SKILL.md 触发条件 / 执行顺序 / 输出格式
运行层 -> 无特殊运行时 | 读取文件、写入/修改文件 | 主要在本地完成
安全层 -> 通常不需要额外 API Key + 小任务验证 + diff / 日志复核
输出层 -> 可复制结果 + 检查清单 + 下一步迭代
} Terraform IaC Expert
Overview
Expert in Infrastructure as Code using Terraform and OpenTofu. Specializes in module design, state management, multi-cloud deployments, and CI/CD integration. Handles complex infrastructure patterns including multi-environment setups, remote state backends, and secure secrets management.
When to Use
- Setting up new Terraform projects and workspaces
- Designing reusable Terraform modules
- Managing state files and remote backends
- Implementing multi-environment (dev/staging/prod) infrastructure
- Migrating existing infrastructure to Terraform
- Troubleshooting state drift and plan failures
- Integrating Terraform with CI/CD pipelines
- Implementing security best practices (secrets, IAM, policies)
Capabilities
Project Structure
- Module-based architecture design
- Workspace vs directory structure strategies
- Variable and output organization
- Provider configuration and version constraints
- Backend configuration for remote state
Module Development
- Reusable module patterns
- Input validation and type constraints
- Output design for module composition
- Local modules vs registry modules
- Module versioning and publishing
State Management
- Remote state backends (S3, GCS, Azure Blob, Terraform Cloud)
- State locking mechanisms
- State migration and manipulation
- Import existing resources
- Handling state drift
Multi-Environment Patterns
- Workspace-based environments
- Directory-based environments
- Terragrunt for DRY infrastructure
- Environment-specific variables
- Promotion workflows
Security
- Sensitive variable handling
- IAM role design for Terraform
- Policy as Code (Sentinel, OPA)
- Secrets management integration (Vault, AWS Secrets Manager)
- Least privilege principles
CI/CD Integration
- GitHub Actions for Terraform
- Atlantis for PR-based workflows
- Terraform Cloud/Enterprise
- Plan/Apply automation
- Cost estimation integration
Dependencies
Works well with:
aws-solutions-architect- AWS resource patternskubernetes-orchestrator- K8s infrastructuregithub-actions-pipeline-builder- CI/CD automationsite-reliability-engineer- Production infrastructure
Examples
Project Structure
terraform/
├── modules/
│ ├── vpc/
│ │ ├── main.tf
│ │ ├── variables.tf
│ │ └── outputs.tf
│ ├── eks/
│ └── rds/
├── environments/
│ ├── dev/
│ │ ├── main.tf
│ │ ├── variables.tf
│ │ ├── terraform.tfvars
│ │ └── backend.tf
│ ├── staging/
│ └── prod/
└── shared/
└── provider.tf
Root Module with Locals
# environments/prod/main.tf
terraform {
required_version = ">= 1.5.0"
required_providers {
aws = {
source = "hashicorp/aws"
version = "~> 5.0"
}
}
backend "s3" {
bucket = "mycompany-terraform-state"
key = "prod/terraform.tfstate"
region = "us-west-2"
encrypt = true
dynamodb_table = "terraform-locks"
}
}
locals {
environment = "prod"
project = "myapp"
common_tags = {
Environment = local.environment
Project = local.project
ManagedBy = "terraform"
}
}
module "vpc" {
source = "../../modules/vpc"
environment = local.environment
cidr_block = "10.0.0.0/16"
tags = local.common_tags
}
module "eks" {
source = "../../modules/eks"
environment = local.environment
vpc_id = module.vpc.vpc_id
private_subnet_ids = module.vpc.private_subnet_ids
cluster_version = "1.29"
tags = local.common_tags
}
Reusable Module with Validation
# modules/vpc/variables.tf
variable "environment" {
type = string
description = "Environment name (dev, staging, prod)"
validation {
condition = contains(["dev", "staging", "prod"], var.environment)
error_message = "Environment must be dev, staging, or prod."
}
}
variable "cidr_block" {
type = string
description = "VPC CIDR block"
validation {
condition = can(cidrhost(var.cidr_block, 0))
error_message = "Must be a valid CIDR block."
}
}
variable "availability_zones" {
type = list(string)
description = "List of AZs to use"
default = ["us-west-2a", "us-west-2b", "us-west-2c"]
}
variable "enable_nat_gateway" {
type = bool
description = "Enable NAT Gateway for private subnets"
default = true
}
variable "tags" {
type = map(string)
description = "Tags to apply to all resources"
default = {}
}
Module with Dynamic Blocks
# modules/security-group/main.tf
resource "aws_security_group" "this" {
name = var.name
description = var.description
vpc_id = var.vpc_id
dynamic "ingress" {
for_each = var.ingress_rules
content {
from_port = ingress.value.from_port
to_port = ingress.value.to_port
protocol = ingress.value.protocol
cidr_blocks = ingress.value.cidr_blocks
description = ingress.value.description
}
}
egress {
from_port = 0
to_port = 0
protocol = "-1"
cidr_blocks = ["0.0.0.0/0"]
}
tags = merge(var.tags, {
Name = var.name
})
}
Remote State Data Source
# Reference another environment's state
data "terraform_remote_state" "shared" {
backend = "s3"
config = {
bucket = "mycompany-terraform-state"
key = "shared/terraform.tfstate"
region = "us-west-2"
}
}
# Use outputs from shared state
resource "aws_instance" "app" {
ami = data.terraform_remote_state.shared.outputs.base_ami_id
instance_type = "t3.medium"
subnet_id = data.terraform_remote_state.shared.outputs.private_subnet_id
}
GitHub Actions CI/CD
# .github/workflows/terraform.yml
name: Terraform
on:
pull_request:
paths:
- 'terraform/**'
push:
branches: [main]
paths:
- 'terraform/**'
env:
TF_VERSION: 1.6.0
AWS_REGION: us-west-2
jobs:
plan:
runs-on: ubuntu-latest
permissions:
contents: read
pull-requests: write
id-token: write # For OIDC
steps:
- uses: actions/checkout@v4
- name: Configure AWS credentials
uses: aws-actions/configure-aws-credentials@v4
with:
role-to-assume: arn:aws:iam::123456789:role/terraform-github-actions
aws-region: ${{ env.AWS_REGION }}
- uses: hashicorp/setup-terraform@v3
with:
terraform_version: ${{ env.TF_VERSION }}
- name: Terraform Init
working-directory: terraform/environments/prod
run: terraform init
- name: Terraform Plan
working-directory: terraform/environments/prod
run: terraform plan -out=tfplan
- name: Upload Plan
uses: actions/upload-artifact@v4
with:
name: tfplan
path: terraform/environments/prod/tfplan
apply:
needs: plan
runs-on: ubuntu-latest
if: github.ref == 'refs/heads/main' && github.event_name == 'push'
environment: production
steps:
- uses: actions/checkout@v4
- name: Configure AWS credentials
uses: aws-actions/configure-aws-credentials@v4
with:
role-to-assume: arn:aws:iam::123456789:role/terraform-github-actions
aws-region: ${{ env.AWS_REGION }}
- uses: hashicorp/setup-terraform@v3
with:
terraform_version: ${{ env.TF_VERSION }}
- name: Download Plan
uses: actions/download-artifact@v4
with:
name: tfplan
path: terraform/environments/prod
- name: Terraform Apply
working-directory: terraform/environments/prod
run: terraform apply -auto-approve tfplan
Import Existing Resources
# Import existing AWS resource into state
terraform import aws_s3_bucket.existing my-existing-bucket
# Import using for_each key
terraform import 'aws_iam_user.users["alice"]' alice
# Generate configuration from import (Terraform 1.5+)
terraform plan -generate-config-out=generated.tf
Handling Sensitive Values
# Reference secrets from AWS Secrets Manager
data "aws_secretsmanager_secret_version" "db_password" {
secret_id = "prod/db/password"
}
resource "aws_db_instance" "main" {
# ... other config ...
password = data.aws_secretsmanager_secret_version.db_password.secret_string
}
# Mark outputs as sensitive
output "db_connection_string" {
value = "postgres://admin:${aws_db_instance.main.password}@${aws_db_instance.main.endpoint}"
sensitive = true
}
Best Practices
- Use remote state - Never store state locally for team projects
- Enable state locking - Prevent concurrent modifications
- Version pin providers - Use
~>constraints, not>= - Separate environments - Use directories or workspaces, not branches
- Module everything reusable - But don't over-abstract
- Validate inputs - Use variable validation blocks
- Use data sources - Reference existing resources instead of hardcoding
- Tag all resources - Apply consistent tags for cost tracking
- Review plans carefully - Especially for destroy operations
Common Pitfalls
- State file conflicts - Multiple people running terraform simultaneously
- Hardcoded values - Not using variables for environment differences
- Circular dependencies - Resources depending on each other
- Missing dependencies - Not using
depends_onwhen implicit deps aren't enough - Large state files - Not breaking up large infrastructure
- Secrets in state - State contains sensitive values, encrypt at rest
- Provider version drift - Different team members using different versions
- Not using -target carefully - Can cause drift, use sparingly
先判断是否适合
作者设计意图
作者的方法与取舍
边界和复核